Imaging technique could enable surgeons to see and remove malignant tumour with ease

28/11/2022

Researchers have developed a new imaging technique that could enable surgeons to clearly see malignant growth that is often difficult to completely eliminate. The technique uses a synthetic version of a compound found in scorpion venom. The study was published in the journal Neurosurgery.
The new imaging technique uses a special high-sensitivity near-infrared camera, along with the imaging agent tozuleristide, or BLZ-100. The agent contains a synthetic version of an amino acid compound found in scorpion venom.
Like the natural form of the compound, the synthetic version is not toxic and binds to tumour cells. It is attached to a fluorescent dye that glows when stimulated by a near-infrared laser.
Viewed through the camera, the imaging agent might allow neurosurgeons to detect the boundaries between tumours and healthy brain tissue during surgery, improving the opportunity for surgeons to remove tumour cells while sparing normal brain tissue.
"With this fluorescence, you see the tumour so much clearer because it lights up like a Christmas tree," said Adam Mamelak, senior author of the study. This is important because of the sprawling nature of gliomas, the type of brain tumours imaged during the trial. Gliomas are highly lethal and comprise about 33 per cent of all brain tumours.
They can infiltrate brain tissue with tentacle-like structures, making them difficult to distinguish from normal brain tissue. They typically do not respond to traditional therapies such as chemotherapy and radiation. The key to extending patient survival depends on a surgeon's ability to detect and remove all parts of the tumour.
In the clinical trial, 17 adult patients with brain tumours were given varying doses of BLZ-100 before surgery. Despite the varying amounts of the drug given, the majority of tumours fluoresced, including both high- and low-grade gliomas.
After surgery, patients were monitored for 30 days. Investigators found that none of the patients had any serious adverse responses to the drug and that the imaging system was safe and could be useful for imaging the brain tumours during surgery. More clinical trials are needed to further evaluate the safety of the imaging system and demonstrate the system's effectiveness before BLZ-100 can gain approval from the Food and Drug Administration, and the camera used in the trial must be refined before it can be used seamlessly in an operating room. But Mamelak said the clinical trial results were promising.
"For a surgeon, this seamless integration of fluorescence imaging into the surgical microscope is very appealing," Mamelak said.
Unlike other experimental systems that are bulkier or rely on multiple cameras, the new imaging system uses a single camera that takes both near-infrared and white-light images by alternating between a laser and normal white lights at very high speeds.
This technology enables surgeons to easily switch back and forth between "normal" vision using a surgical microscope and fluorescent "super-vision" on a nearby monitor, in real time. The next phase of this research, already underway, is a clinical trial involving paediatric brain tumours. This trial will serve as a data set for potential FDA approval. A similar adult clinical trial is also being planned.
"The technique in this study holds great promise not only for brain tumours but for many other cancer types in which we need to identify the margins of cancers. The ultimate goal is to bring greater precision to the surgical care we provide to our patients," said Keith L. Black, MD, chair of the Department of Neurosurgery at Cedars-Sinai.

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